RU188537U1 - DEVICE ACHIEVING QUICKLY - Google Patents

Abstract

The utility model relates to diaphragm-type devices for measuring volumetric gas flow. Essence: the device includes a housing (1) with holes (2, 3) for gas pressure selection, a central hole for gas transportation, a U-shaped bar and a through groove in which the holder with a diaphragm is installed. From above and below the case (1) is closed by covers (9, 10). The U-shaped bar and the upper part of one of the covers (9) are made in the form of a dovetail connection. Spacer screws are installed in the threaded holes of the U-shaped bar. The end surfaces of the spacer screws come in contact with elastic elements located in the recesses of the cover (9). The nozzles (15, 16) and connecting flanges (17) are attached to the body (1) for fastening it to the gas pipeline. Between one of the nozzles (16) and the housing (1) there is an additional connector in the form of a flange connection (18). EFFECT: increased productivity of device maintenance and increased reliability of its operation. 3 il.

Description

A utility model for diaphragm-type devices for measuring gas volume flow at gas measuring stations of main and technological gas pipelines of the gas and oil industry.

Known narrowing device [patent US 5396931, 14.03.1995, Mounting of orifice plates], comprising a housing with a removable top cover, which seals the transverse slit-like groove, and pressure ports, separated by a removable diaphragm holder, sealing elements. The cover is secured with the help of expansion bolts that are screwed into the bar in the device case.

The disadvantages of this design.

1. When fastening the lid with the locking bolts screwed into the bar, there is a high probability that the threads of the thread will break if the bolts have excessive uncontrolled torque, which reduces the maintenance performance of the device and requires additional bolt tightening controls.

2. When two or more retaining bolts are simultaneously used when fixing the lid, opposing forces appear, which leads to a significant uneven distribution of the pressing force along the lid length, which can lead to depressurization of the internal cavity of the device, which reduces its reliability.

3. When the device temperature changes, the length of the working part of the locking bolts and the cover thickness change, which under certain conditions can lead to opening of the lid-housing joint and depressurization of the internal cavity of the device, which reduces its reliability.

The closest to the technical essence of the solution - the prototype is a narrowing device for measuring gas consumption [RF Patent for utility model No. 48221, publ. September 27, 2005 Byul. No. 27], comprising a housing closed at the top and bottom with lids with openings for selecting gas pressure and a central opening for transporting gas, made with a through groove in which a diaphragm holder is installed, a lifting mechanism for removing the diaphragm holder from the housing, and also branch pipes and connecting flanges for fastening the casing to the gas pipeline. An additional connector in the form of a flange connection is made between one of the nozzles and the housing, and the upper part of the upper housing cover, provided with a U-shaped strip, and the side faces of the strip are made in the form of a dovetail connection, with the rail covering the housing outside.

The disadvantages of the prototype.

1. When fastening the top cover of the case, interacting with the U-shaped bar by means of spacer screws, the thread may break the last thread if excessive uncontrolled torque is applied to it, which reduces the maintenance performance of the device.

2. When two or more spacer screws are used simultaneously when attaching the lid, opposing forces appear, which leads to a significant uneven distribution of the pressing force along the lid length, which can lead to depressurization of the internal cavity of the device, which reduces its reliability.

3. When the device temperature changes, the length of the working part of the retaining screws and the thickness of the upper case cover change, which, under certain conditions, can lead to the opening of the joint upper case-cover and depressurization of the internal cavity of the device, which reduces its reliability.

The task of the utility model is to create a device that narrows the quick-change system, which allows to increase the productivity of its maintenance and reliability.

The problem is solved due to the fact that in a narrowing quick-change device, which contains a housing closed at the top and bottom with lids with openings for taking gas pressure and a central opening for transporting gas, is made with a through groove in which a holder with a diaphragm is installed, a lifting mechanism for extracting from the housing of the holder with the diaphragm, sealing elements, pipes and connecting flanges for fastening the housing to the gas pipeline, an additional connector in the form of a flange connection, made of do one of the nozzles and the body, U-shaped bar with side faces made in the form of dovetail connection, covering the body outside, in the U-shaped bar threaded holes with axes perpendicular to the axis of the central hole of the device with spacers installed in them, interacting with their end surfaces with elastic elements placed in recesses made in the upper housing cover.

The essence of the described utility model is illustrated by the following drawings.

FIG. 1 shows a general view of the proposed device.

FIG. 2 is a cross-section of the proposed device A-A in FIG. one.

FIG. 3 - detail B with a local section in FIG. one.

The quick-change narrowing device consists of a housing 1 with holes 2, 3 for taking gas pressure and a central hole 4 for transporting gas. The housing 1 is made with a through groove 5, in which the holder 6 is mounted, which carries the diaphragm 7 with a calibrated hole 8. The housing 1 is closed at the top and bottom with covers 9, 10. The spacer screws 19 are installed into the threaded holes of the strip 11. In contact with elastic elements 20 located in the recesses of the cover 9. Between the thrust surface of the head of the spacer screws 19 and the upper surface of the strip 11, if there is a touch on the end surfaces of the spacer screws 19 and the elastic elements 20, there is a gap T. I the size of the gap T is determined by calculation from the condition of ensuring a given force of pressing the cover 9 to the body 1 and depends on the stiffness of the elastic elements 20. Plank 11 and the upper part of the cover 9 are made in the form of a dovetail connection 12, the side edges of the bar outside. At the bottom of the housing 1, purge ports 13 are provided. The diaphragm 7 is mounted in the holder 6 through an O-ring seal 14 of U-shaped section. The housing 1 has nozzles 15, 16 and connecting flanges 17. Between one of the nozzles and the housing 1 there is an additional connector in the form of a flange connection 18.

The device works as follows.

Through the device narrowing quick-change, built into the measuring section of the pipeline and being a part of this pipeline, gas is transported under pressure. Passing through the calibrated orifice 8 of the diaphragm 7, the gas flow receives disturbances, which lead to a pressure drop of the gas before and after the diaphragm. The gas pressure is taken through the opening 2 in front of the diaphragm and the opening 3 located after the diaphragm and is transmitted to the differential pressure gauges and calculators of the gas metering station flow, recording the flow of the transported gas. If maintenance is required or the seals 14 and diaphragm 7 are replaced, they are removed from the housing 1 together with the holder 6 by means of a lifting mechanism (not shown in FIG.). To do this, the spacer screws 19 are unscrewed from the threaded holes of the strip 11, and the cover 9 is dismantled together with elastic elements 20 installed in its recesses. To carry out maintenance of the internal cavity of the restriction device, only the detachable connection pipe 15 is dismantled instead of removing the entire restriction device. After maintenance or replacement parts in reverse order produce all previous operations. In this case, the tightening of the screws 19 occurs only before they come into contact with the upper surface of the strip 11 (i.e., up to the moment corresponding to T = 0).

Thus, the proposed design of the device of the constricting quick-change allows improving the performance of its maintenance by reducing the time of operations necessary for assembling and setting up the device and increasing the reliability of the device by reducing the probability of depressurization of its internal cavity.

Claims (1)

A tapering quick-change device for measuring the volume flow rate of a gas, comprising a casing closed at the top and bottom with gas pressure openings and a central gas transportation hole, made with a through groove in which a diaphragm holder is installed, a lifting mechanism for removing the diaphragm holder from the body , sealing elements, nozzles and connecting flanges for fastening the body to the gas pipeline, an additional connector in the form of a flange connection, made between one of the patr Cases and housing, U-shaped bar with side faces, made in the form of a dovetail connection, covering the case outside, characterized in that the U-shaped bar has threaded holes with axes perpendicular to the axis of the central opening of the device, installed in them spacer screws that interact with their end surfaces with elastic elements placed in the recesses made in the upper case cover.

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